Task 8.2.2

1. Task 8.2.2 Test beam infrastructure in Frascati G. Mazzitelli on behalf of LNF, Ferrara & Perugia INFN structure. AIDA kick-off meeting, CERN 16-18 February 2011

2. Beam Test Facility(BTF) Infrastructure The Frascati BTF infrastructure is a beam extraction line optimized to produce electrons, positrons, photons and neutrons mainly for HE detector calibration purpose. The aim of the task 8.2.2 is to improve and further qualify the BTF facility B. Buonomo, L. Foggetta, G. Mazzitelli, L. Quintieri & P. Valente

3. BTF • high currentLinac: • 1 - 500 mA e- 100 mA e+, • 1 - 10 ns pulses, at least 107 particles The DAFNE BTF The BTF is a e-/e+test-beam facility in the Frascati DAFNE collider complex Need to attenuate the primary beam: • Single particle regime is ideal for detector testing purposes • Allows to tune the beam intensity • Allows to tune the beam energy

4. control room 5.5 m 4 m Hall BTF layout BTF Hall momentum analyzer LINAC tunnel main ring

5. 0 1e- 2e- 3e- detector LINAC Beam 1-500 mA W slits 450 magnet N. of particles Selected energy (MeV) LINAC beam attenuation 103 102 10 1 0 100 300 500 tunable Cu target: 1.7, 2.0, 2.3 X0

6. BTF beam characteristic Beam (e- or e+) intensity can be adjusted by means of theenergy dispersion and collimators, down to single particle per pulses Number (particles/pulse) 1105 11010 Energy (MeV) 25-500 25750 Repetition rate (Hz) 20-50 50 Pulse Duration (ns) 10 1 or 10 p resolution 1% Spot size (mm)sx,y ≈ 2 (single particle) up to 10*10 (high multiplicity) Divergence (mmrad) s’x,y ≈ 2 (single particle) up to 10 (high multiplicity) • Multi-purpose facility: • H.E. detector calibration and setup • Low energy calorimetry & resolution • Low energy electromagnetic interaction studies • High multiplicity efficiency • Detectors aging and efficiency • Beam diagnostics

7. BTF photon tagged sourceAGILE GRID photon calibration The AGILE Gamma Ray Imaging Detector calibration at BTF is aimed at obtaining detailed data on all possible geometries and conditions. BTF can provide data in the most significant energy region (20-700 MeV) spectrometer silicon detector silicon tagging target AGILE GRID Be window

8. BTF Experimental Hall Neutron production @ BTF Photonuclear neutron production Beam power 40 W Neutron flux@1m from target 4E+5 n/cm2/s; 45 mSv/h (ex. data) Transfer Line

9. 5.5 m 4 m Linac tunnel • one meeting room (WiFi) • one guest office (LAN-WiFi) Facility equipment Control room: Pc’s, Controls console, printercabling, crate and racks, etc main entrance: radioprotection wallcan be removed on demand

10. Facility equipment • permanent DAQ TDC/QDC/ADC/scaler/disc. available • NIM, VME, CAMAC Branch, VME controllers • ‘Devil’/VMIC VME and CAMACcontroller, NIM modules • Remotely controlled trolley • Gas system • HV system… • crates, rack, etc. Noble Gas C2H6 CO2 C4H10 • HV SY2527 (3/4KV neg, 3/4KV pos, 15KV pos) • low attenuation Cabling BTF HALL-BTF CR • Network: Wi-Fi, dedicated-LAN, WAN, printer http://www.lnf.infn.it/acceleratori/btf/

11. 8.2.2. first milestone INFN LNF remote trolley… A remotely controled motorized system built to control the position of the device under test AIDA-WP8

12. New remote trolley(7 Feb 2011) plane 600x600 mm min height 915 mm max height 1250 mm horiz. excursion 1000 mm max load 200 Kg accuracy < 1 mm2 local control LNF-DR - Reparto Automatismi e Controlli: Ubaldo Denni, M. Antonietta Frani,Giuseppe Papalino

13. 8.2.2. second milestone INFN Perugia & UiB – Ref. C. Cecchi LYSO calorimeter … LYSO calorimeter prepared as a SuperBprototypeto provide a map of beam energy in various beam operating parameters. AIDA-WP8

14. LYSO calorimeter to study the dependence of the beam energy and resolution on the beam operating parameters Prototype mechanical structure has been designed and built Front-end electronics has been designed and developed 6 crystals inserted in the structure and with two different readouts (PiN and APD), with the developed FE electronics have been tested at the BTF. Ring 10 Ring 8 Ring 9 APD APD APD PiN PiN PiN AIDA-WP8

15. Example of 300 MeV electrons • We may use also 2 electron events, more range • Resolution: • 1 e- : 6.62±0.07 % • 2 e- : 4.64±0.17 % PiN3 PiN2 PiN1 APD3 APD2 APD1 New test with 25 crystals is foreseen in 2011 Expected resolution at 1GeV with the complete 5x5 matrix 2% AIDA-WP8

16. 8.2.2. third milestone INFN LNF - Ref F. Murtas GEM tracker status… GEM chambers for monitoring the beam position and the beam width with a resolution of about 300 μm. For tests of tracking detectors a beam tracking telescope will be built based on GEM providing a spacial resolution of <100 μm in one view. AIDA-WP8

17. GEM-TPC Traker GEM TPC prototype GEM TPC cross section beam y y x 8 z x z Y resolution ~ 50 mm (limited by drift time) X resolution ~ 1 mm (limited by pad pitch)

18. new design (pad 500mm) 128 ch electronic new design goal: Y resolution O(100 micron) X resolution O(300 micron) Angular res. O(10 mrad) development: limitation due to minimal pad dimension 300mm and design and implementation of high density front end electronics x z compact design: fpga basedethernet/opt/usb output

19. 8.2.2. fourth milestone INFN Ferrara & LNF - Ref R. Calabrese Multi purpose DAQ… A multi purpose DAQ able to acquire, store and synchronize beam parameters and data with experiments DAQ. AIDA-WP8

20. Multi purpose DAQ • Integrate most common device – ADC/TDC/SCALER, etc (BTF and LNF electronic pool ) • Integrate BTF beam diagnostics (calorimeters, profile monitors – scintillating fiber & Si chambers, photon tagging, neutrons monitors) • Tag & synchronize data with hosted experiments DAQ front end VME – DAQ labview & C cins based GUI - on line beam monitor e- spectra XY beam sci or Si ch-profile

21. Conclusions • design and put in operation a remotely controlled trolley for detector test • installation foreseen in march 2011 • equip the BTF with a GEM chambers for monitoring with a resolution of about 100 μm • very good result obtained; high resolution device is under development • equip the BTF with LYSO calorimeter as monitor the beam energy • preliminary test done. More measurements, electronic tests, etc are foreseen in 2011 • muti purpose DAQ system • continuously under implementation adding new board & drivers. Photon tagging & data tag and synchronization is in progress